Fix -fPIC from being used on executable object files.

BUILD_SHARED_LIBS is now only recognized when calling CUDA_ADD_LIBRARY.  If you want the CMAKE_SHARED_LIBRARY_C/CXX_FLAGS to be used, pass SHARED as an argument.  This prevents -fPIC from being used on objects destined for executables by default.
This commit is contained in:
James Bigler 2009-11-04 01:15:31 -05:00
parent f87bdbf328
commit b1817590c1

View File

@ -161,10 +161,6 @@
# cuda file to Visual Studio it knows that this file produces an object file
# and will link in the resulting object file automatically.
#
# This script also looks at optional arguments STATIC, SHARED, or MODULE to
# override the behavior specified by the value of the CMake variable
# BUILD_SHARED_LIBS. See BUILD_SHARED_LIBS below for more details.
#
# This script will also generate a separate cmake script that is used at
# build time to invoke nvcc. This is for serveral reasons.
#
@ -181,13 +177,13 @@
# make the build rule dependent on the file, the output files will be
# regenerated when the options change.
#
# In addition, on some systems special flags are added for building objects
# intended for shared libraries. FindCUDA make use of the CMake variable
# BUILD_SHARED_LIBS and the usual STATIC, SHARED, and MODULE arguments to
# determine if these flags should be used. Please set BUILD_SHARED_LIBS or
# pass in STATIC, SHARED, or MODULE according to how the objects are to be
# used before calling CUDA_ADD_LIBRARY. A preprocessor macro,
# <target_name>_EXPORTS is defined when BUILD_SHARED_LIBS is defined.
# This script also looks at optional arguments STATIC, SHARED, or MODULE to
# determine when to target the object compilation for a shared library.
# BUILD_SHARED_LIBS is ignored in CUDA_WRAP_SRCS, but it is respected in
# CUDA_ADD_LIBRARY. On some systems special flags are added for building
# objects intended for shared libraries. A preprocessor macro,
# <target_name>_EXPORTS is defined when a shared library compilation is
# detected.
#
# Flags passed into add_definitions with -D or /D are passed along to nvcc.
#
@ -755,6 +751,27 @@ function(CUDA_ADD_CUDA_INCLUDE_ONCE)
endif()
endfunction()
function(CUDA_BUILD_SHARED_LIBRARY shared_flag)
set(cmake_args ${ARGN})
# If SHARED, MODULE, or STATIC aren't already in the list of arguments, then
# add SHARED or STATIC based on the value of BUILD_SHARED_LIBS.
list(FIND cmake_args SHARED _cuda_found_SHARED)
list(FIND cmake_args MODULE _cuda_found_MODULE)
list(FIND cmake_args STATIC _cuda_found_STATIC)
if( _cuda_found_SHARED GREATER -1 OR
_cuda_found_MODULE GREATER -1 OR
_cuda_found_STATIC GREATER -1)
set(_cuda_build_shared_libs)
else()
if (BUILD_SHARED_LIBS)
set(_cuda_build_shared_libs SHARED)
else()
set(_cuda_build_shared_libs STATIC)
endif()
endif()
set(${shared_flag} ${_cuda_build_shared_libs} PARENT_SCOPE)
endfunction()
##############################################################################
# This helper macro populates the following variables and setups up custom
# commands and targets to invoke the nvcc compiler to generate C or PTX source
@ -847,8 +864,9 @@ macro(CUDA_WRAP_SRCS cuda_target format generated_files)
CUDA_GET_SOURCES_AND_OPTIONS(_cuda_wrap_sources _cuda_wrap_cmake_options _cuda_wrap_options ${ARGN})
CUDA_PARSE_NVCC_OPTIONS(CUDA_WRAP_OPTION_NVCC_FLAGS ${_cuda_wrap_options})
# Figure out if we are building a shared library. Default the value of BUILD_SHARED_LIBS.
set(_cuda_build_shared_libs ${BUILD_SHARED_LIBS})
# Figure out if we are building a shared library. BUILD_SHARED_LIBS is
# respected in CUDA_ADD_LIBRARY.
set(_cuda_build_shared_libs FALSE)
# SHARED, MODULE
list(FIND _cuda_wrap_cmake_options SHARED _cuda_found_SHARED)
list(FIND _cuda_wrap_cmake_options MODULE _cuda_found_MODULE)
@ -866,6 +884,8 @@ macro(CUDA_WRAP_SRCS cuda_target format generated_files)
# If we are setting up code for a shared library, then we need to add extra flags for
# compiling objects for shared libraries.
set(CUDA_HOST_SHARED_FLAGS ${CMAKE_SHARED_LIBRARY_${CUDA_C_OR_CXX}_FLAGS})
else()
set(CUDA_HOST_SHARED_FLAGS)
endif()
# Only add the CMAKE_{C,CXX}_FLAGS if we are propagating host flags. We
# always need to set the SHARED_FLAGS, though.
@ -1083,8 +1103,10 @@ macro(CUDA_ADD_LIBRARY cuda_target)
# Separate the sources from the options
CUDA_GET_SOURCES_AND_OPTIONS(_sources _cmake_options _options ${ARGN})
CUDA_BUILD_SHARED_LIBRARY(_cuda_shared_flag ${ARGN})
# Create custom commands and targets for each file.
CUDA_WRAP_SRCS( ${cuda_target} OBJ _generated_files ${_sources} ${_cmake_options}
CUDA_WRAP_SRCS( ${cuda_target} OBJ _generated_files ${_sources}
${_cmake_options} ${_cuda_shared_flag}
OPTIONS ${_options} )
# Add the library.